Ambidextrous personality type


Things You Didn't Know About Ambidextrous People

A tiny fraction of the population can use both hands with equal skill. Here's the biology behind this cool ability, plus some other tidbits you never knew.

1 / 10

stockphoto mania/Shutterstock

There are very, very few of them

Truly ambidextrous people only make up about 1 percent of the population. People who have no dominant hand, and can use both hands with equal skill, are about 1 in 100, though many people who are left-handed can use their non-dominant hand nearly as well as their dominant one.

2 / 10

Peerayot/Shutterstock

There are a couple of variations

The rarest form of ambidexterity is when people can use both hands with strong skill, all the time. These people can be called “ambidextral,” which means “pertaining equally to the right-hand side and the left-hand side. ” There are other people, however, who don’t have equal skill with both hands but who use their right hands for some things and their left hands for others. Another term altogether, “ambisinistral,” refers to people who have no dominant hand, and use both hands… but neither hand is very strong. As Mental Floss puts it, both hands have the approximate skill of a right-hander’s left hand. Here are 14 hilarious tweets all lefties will relate to.

3 / 10

Naeblys/Shutterstock

It’s all in your head

Ambidexterity indicates that the left and right sides of that person’s brain are pretty much symmetrical (which is true for lefties, too!) On the other hand, right-handed people tend to be left-brain dominant. Here’s more about how your brain determines which hand you prefer.

4 / 10

file404/Shutterstock

Many of them started out as lefties

Since ambidextrous and leftie brains are so similar, it’s only natural for one to start out as the other. For hundreds of years, there was quite a stigma surrounding left-handedness, as the left hand carried Biblical associations with witchcraft and demons. The word “sinister” comes from the Latin word “sinistra,” which originally meant “left.” Many left-handed people, from the Middle Ages to the 21st century, experienced pressure to use their right hands instead and ended up developing ambidexterity. Other people, meanwhile, may become ambidextrous after injuring their dominant hand.

5 / 10

Syda Productions/Shutterstock

Academia may not be their strong suit

Surprisingly, even though this skill is so connected to the brain, ambidextrous people tend to be more in tune with their physical abilities than their mental ones. It may be for this reason that they tend to perform more poorly on general intelligence tests than people who favor one hand. In a Finnish study, seven- and eight-year-old children completed several different academic tests. 87 out of the 8000 participants were comfortable using both hands. The ambidextrous students were 90 percent more likely than the right-handed ones to struggle with math problems and were also more likely to have difficulties with language.

6 / 10

Feng Yu/Shutterstock

It also has ties to ADHD…

In the same Finnish study, left-handed and ambidextrous teenagers were twice as likely as right-handers to show signs of ADHD. Of the teenagers in the study who’d already been diagnosed with ADHD, the ambidextrous ones showed more severe symptoms.

7 / 10

Andrey_Popov/Shutterstock

…and schizophrenia

The gene that contributes strongly to left-handedness, LRRTM1, also increases a person’s risk for schizophrenia. Since left-handed and ambidextrous people’s brains are so similar, ambidextrous people are at a higher risk for the condition as well. On the flip side, schizophrenics are far more likely to be left-handed or ambidextrous than the rest of the population. Here are other hidden dangers that come with being left-handed.

8 / 10

Kuznetcov Konstantin/Shutterstock

They’ve got skills and their share of famous representatives

Ambidexterity tends to give people a major advantage in activities such as music, art, and sports. Leonardo da Vinci, Ben Franklin, and Albert Einstein are some of history’s most famous ambis. (Franklin signed the Declaration of Independence with his left hand!) Maroon 5 frontrunner Adam Levine, while not totally ambidextrous, writes with his left hand but does most other things with his right. Figure skater Michelle Kwan and LeBron James are just two of the many athletes skilled at using both hands.

9 / 10

areebarbar/Shutterstock

Their emotions are more adaptable

According to a Montclair State University study, ambidextrous people are more likely to experience a change in their emotions based on their surroundings. The authors of the study tried to trigger certain emotions in the participants. Right-handed people tended to be more resistant to the rapid emotional change than the left- and multi-handed participants.

10 / 10

Tonktiti/Shutterstock

Ambidexterity often comes hand-in-hand with synesthesia

The brains of ambidextrous people tend to be pretty symmetrical—a trait they share with people who have synesthesia. If you’ve ever heard about people being able to hear colors, feel physical sensations that other people are feeling, or even associate numbers with personalities, all of those sensations are variations of synesthesia. This fascinating brain condition triggers more than one of the five senses at once. A person with synesthesia is far more likely to be left-handed or ambidextrous than the average person is. Now that you’ve learned about all the amazing things about ambidextrous, check out the 25 famous left-handed people you probably never knew before.

[Sources: Mental Floss, mindamuse.com, National Geographic, wisegeek.com]

Originally Published: March 19, 2019

Meghan Jones

Meghan Jones is a word nerd who has been writing for RD.com since 2017. You can find her byline on pieces about grammar, fun facts, the meanings of various head-scratching words and phrases, and more. Meghan graduated from Marist College with a Bachelor of Arts in English in 2017; her creative nonfiction piece “Anticipation” was published in the Spring 2017 issue of Angles literary magazine.

Ambidextrous definition, ambidextrous facts, ambidextrous personality traits

Contents

  • What is ambidextrous
    • Ambidextrous facts
    • What percentage of people are ambidextrous?
    • How to become ambidextrous
    • Ambidextrous personality traits
      • Conclusion

Ambidextrous or mixed-handedness is the ability to use both hands to do everything really easily and well.

Ambidextrous facts

Handedness is an important aspect of human psychology, however, its origins, neurobiological substrates, and function are not well understood 1. Apart from obvious functional differences, subtle cognitive and behavioral differences have been demonstrated in relation to various handedness measures 2 but their significance is uncertain. Handedness has been found to be associated with structural and functional cerebral differences. Left handedness and ambidextrous (mixed handedness) also appear to be associated with an elevated risk of some developmental and immunological disorders that may contribute to pathological processes developing in ageing. Inconsistent reports show that left handedness may be more prevalent in early-onset as well as late-onset Alzheimer’s disease, but might also be associated with slower decline. Such inconsistencies may be due to handedness being usually modeled as a binary construct while substantial evidence suggests it to be a continuous trait. The findings of this study 1 suggest that mixed but not left handedness is associated with greater hippocampal and amygdalar atrophy. This effect may be due to genetic, environmental, or behavioral differences that will need further investigation in future studies.

A number of competing theories have been developed to account for handedness differences in humans. A main genetic origin of handedness is widely accepted and Annett’s and McManus’ theories of a single gene, two-allele determinant of handedness have accumulated substantial supporting evidence 3. Annett 4 proposed that a gene responsible for handedness phenotype could present either with a dominant allele for handedness direction (RS+), which shifts handedness to the right or a neutral allele (RS−), which leaves direction of handedness to chance. Thus, according to Annett, carrying two RS+ alleles would be associated with a shift of approximately two standard deviations to the right while one allele would be associated with a one standard deviation shift. The McManus’ 5 theory is very similar to Annett’s but diverges in that it suggests the RS+ allele (called D in McManus’ theory, for “Dextral”) to be co-dominant with the RS− allele (called C for “Chance”). Thus, D homozygous individuals are, according to McManus’ theory, 100% right handed. C homozygous carriers have a 50% chance of being left handed. While CD carriers have 25% chance of being left handed. Both theories fit the existing epidemiological and inheritance data for this trait showing that approximately 10% of humans are left handed, that 26% of individuals with two left-handed parents are also left handed while only 20% of those with one left-handed parent and 10% of those with two right-handed parents are left handed. These theories are also consistent with large genetic investigations in twins showing that approximately 25% of the variance in handedness is accounted for by genetic variation 6, but not all studies support this view 7. In this context other possible origins of handedness, such as early developmental abnormalities or trauma 8, or prenatal hormonal variation 9, may make some contribution to handedness variability but their influence is uncertain.

There is good evidence showing that variation in handedness is related to some anatomical 10 and behavioral 11 measures. In addition, the fact that handedness/laterality is also detectable in animals (Annett 2006) and therefore has an origin that can likely be traced back in millions of years 12 suggests that it is not a recent evolutionary effect and that behavioral laterality and left handedness must provide some advantage in order to be preserved through selective processes. In support of this notion, left-handed individuals appear to be over represented in professional musicians and other artistic professions 13, have a slight advantage in some physical activities 14, have somewhat better mathematical abilities, and have been found to have lower rates of arthritis and ulcers 15.

However, there is also substantial evidence showing that left handedness might be associated with important developmental and health differences. For instance, increased prevalence of certain health problems in left-handed individuals has been reported for cardiovascular disease, high blood pressure, thyroid disorder, motor coordination disorder, dyslexia, asthma, multiple sclerosis, type 1 diabetes 16, but decreased prevalence in left handedness has also been found in type 2 diabetes 17 and other studies have failed to replicate some of these effects. Some evidence suggesting an association between handedness and mental illness is also available 18.

In contrast, associations between cognitive performance and handedness have been investigated in large cohorts and have shown only small or no effect 19. A recent study that investigated cognitive decline in a prospective study of ageing also found no effect of handedness 20 but a cross-sectional investigation of 1669 individuals aged 55–95 years found that poor cognitive function was more likely in nonright-handed individuals 21. Adding further complexity, Doody et al. 22 showed that age of onset of Alzheimer’s disease occurred earlier in left-handed individuals but was followed by a slower rate of decline. These findings were consistent with those of another study 23 demonstrating that left-handed individuals were overrepresented in early-onset Alzheimer’s disease, but partly contradicted another that found a reduced frequency of left handedness in late-onset dementia and no association between severity of impairment and strength of handedness 24.

It has been argued that these somewhat inconsistent findings are likely due to the way handedness is assessed and classified with most investigations using an oversimplified binary measure despite available evidence suggesting important differences between consistent handedness (left or right) and inconsistent and mixed handedness 25. A more sensitive way of assessing handedness involves measuring hand preference using a typical questionnaire (e. g., Edinburgh Inventory) that yields a handedness score (usually ranging from −1 to +1) but instead of reducing the measure to a binary variable, it is decomposed into direction (left/right) and strength (absolute value of the handedness score) components that are used in analyses together thus not losing any variance of the original measure. Studies which have considered not only the direction but also the strength of handedness have found that mixed-handed but not strongly left-handed individuals had lower cognitive measures 26, scored higher on schizotipic scales 27, had poorer physical 28 and mental health 26, and had higher rates of asthma 29, ADHD 26, and dyslexia 29. However, de Leon and colleagues 30 found no association between severity of impairment and strength of handedness in late-onset dementia. Recently, Luders and colleagues 31 also showed that mixed handedness, but not left handedness per se, was associated with corpus callosum thickness. In addition, Leask and Crow 32 found that when behavioral as opposed to self-reported handedness measures were considered, peak performance occurred somewhere between mixed handedness and strong handedness. Thus, it is possible that genetic or early developmental differences in left-handed but more likely in mixed-handed individuals might be associated with life-long influences that may have implications for healthy ageing.

What percentage of people are ambidextrous?

Only about 1% of all people are truly ambidextrous.

How to become ambidextrous

A large amount of available evidence supports the view that handedness preferences develop very early and are linked to cerebral development differences, findings that are more consistent with either genetic causes or trauma in the first trimester of pregnancy (e.g., due to bacterial infections, alcohol exposure) or hormonal influences 1. For instance, handedness has been shown to be genetically determined to a large extent 6, the majority of fetuses suck their right thumb in the womb as early as in the fifteenth gestational week 33, thumb sucking in utero is strongly associated with hand preference 10–12 years later 34 and cerebral asymmetry which is correlated with handedness has been shown to have an important genetic component in twins 35. Thus, it is possible that a common genetic factor predisposes to mixed handedness as well as to certain anatomical differences that might be associated with a higher long-term disease risk. Interestingly, the size of the left hemisphere appears to be less influenced by genetics than that of the right 35, which might provide a rationale for one hemisphere being more affected by certain pathological factors such as those observed in the present study. That is, if the effects detected in the present study have genetic origins they may have a greater influence on the hemisphere more genetically determined while the reverse might be true if the origins are environmental.

There is limited evidence supporting the view that differences in behavior between left- and right-handed individuals might be associated with higher exposure to noxious environments or traumatic injuries with some notable exceptions. In a population of 2180, 13–17 year olds, a greater proportion of left-handed individuals, again without information on handedness strength, presented with permanent incisors injuries 36. While in another sample of 5033 individuals the risk of some bone fractures was found to be higher in left-handed, but most of all, in mixed-handed individuals when compared to right-handers 37. Thus, it may be that behavioral differences in mixed- or non-right-handed individuals expose them to a higher risk of trauma either because their interaction with the world is in some circumstances less adaptive or because it is somewhat more hazardous for a left-handed person to live in a world generally designed for a right-handed population.

The possibility that early traumatic injuries of the central nervous system might predispose to left handedness or mixed handedness also finds some support in the literature. For instance, a twin study showed that the sibling with lower birth weight was at higher risk of lower IQ but only in the context of left handedness, suggesting an association between prenatal pathological events and handedness 38. A recent prospective study following 1714 children before and after birth found that mothers’ depressive symptoms and critical life events (including interpersonal loss, financial difficulties, illness, or injury) before birth were associated with mixed handedness, which in turn was associated with a higher risk of language difficulties and ADHD symptoms at age 5 39.

Overall, the available evidence suggests that left handedness but particularly mixed handedness is associated with a number of risk factors, most of which have a strong genetic origin, which could lead to smaller hippocampal and amygdala volumes and greater atrophy in ageing 1. A link with pathological processes is further strengthened by the fact that mixed handedness was associated with prospective atrophy but not wave 1 volumes in the present investigation 1.

Ambidextrous personality traits

Dr Alina Rodriguez and colleagues from Imperial College London, and other researchers from the UK, Finland and the US carried out a research called the Northern Finland Birth Cohort 1986 40, to see whether there was a link between children being ambidextrous (“mixed-handed”) and their risk of having mental health issues, difficulties with language, scholastic, and mental health problems in childhood and that persist into adolescence. Previous studies 26, 41, 29, 27 have suggested that such a link may exist in younger children. The researchers thought that if they could establish a link between ambidexterity and these problems, it might provide a way to identify children at risk of such problems. In this case, the researchers did not specifically believe that ambidextrous or mixed-handedness directly causes the language or behavioral problems seen, rather that differences in the brain could contribute to both traits. The researchers concluded that “mixed-handed children have a greater likelihood of having language, scholastic and mental health problems in childhood”, and that “these persist into adolescence” 40. They say that ambidextrous (mixed-handedness) could be used to identify children at risk of having persistent problems. The researchers also added that more research is needed to explain why there might be a link between hand dominanace and mental health problems including ADHD symptoms.

The Northern Finland Birth Cohort 1986 study provided data on 9,479 children from the two most northerly provinces in Finland who were expected to be born between July 1 1985 and June 30 1986 40.

In the current analysis, the researchers assessed children’s school performance, behavior, and whether they had any language difficulties at eight and 16 years of age. To assess these measures, the researchers sent questionnaires to the children’s parents at both ages, and to their teachers at age eight only. The children also completed a questionnaire on themselves when they were aged 16. Data was excluded for children with intellectual disabilities (IQ scores of 70 or less) or those who did not agree to their data being used. In all, data from 7,871 children was included in the current analysis.

Parents provided information on their children’s hand dominance at age eight by answering a single question about whether the children were right-handed, left-handed or ambidextrous. Parents answered questions about whether the children had any language problems, including whether they had problems with sounds, stuttered or made phonetic mistakes that interfered with learning words. Parents also estimated how their child’s speech compared to that of their peers (four possible answers ranging from ‘clearly weaker’ to ‘better’).

At age eight, teachers reported whether the children had problems with reading, writing or maths, and estimated the standard of their overall school performance (below average, average or above average). At age 16, the children reported on their own school performance in the Finnish language and maths relative to their peers (better than average, average, below average or very poor).

The children’s behavior at age eight was rated by their teachers, based on a recognized scale. At age 16, their level of ADHD symptoms was assessed using another recognized scale, the Rutter scale. A score above a certain threshold indicated “probable psychiatric disturbance”. Children with the highest 5% of scores on the three ADHD-related parts of the Rutter scale (inattention, hyperactive-impulsive behavior, or both) were considered to have problems in these areas. The researchers also looked at the severity of each child’s symptoms.

The researchers compared school performance, behavior, and language difficulties in the group of all non-right-handed children (i.e. left-handed and ambidextrous combined). They then compared all of those who were ambidextrous with those who were right-handed. In their analysis they took into account three factors that could potentially affect the outcomes of the research: gender, birth weight, and gestational age (how far into the pregnancy they were born).

The researchers found that of the 7,871 children analyzed, the majority (90.9%) were right-handed, 8% were left-handed (632 children), and 1.1% were ambidextrous (87 children). At age eight, 15.3% of the total group of children were reported by their parents to have speech problems. Teachers reported that 9.7% of the children had weaker school performance than their peers, while their teachers’ behaviour assessments suggested that 13.4% had probable psychiatric disturbance. By age 16, problems were reported to be less common.

Based on parental reports at age eight, ambidextrous children were twice as likely as right-handed children to have weaker speaking ability than their peers (odds ratio 2.44). After adjusting for confounding factors that could affect the results, the researchers found no significant differences in other language assessments at age eight.

Odds ratios are used to compare the relative odds of the occurrence of the outcome of interest (e.g. disease or disorder), given exposure to the variable of interest (e.g. health characteristic, aspect of medical history). The odds ratio can also be used to determine whether a particular exposure is a risk factor for a particular outcome, and to compare the magnitude of various risk factors for that outcome.

  • Odds ratio=1 Exposure does not affect odds of outcome
  • Odds ratio>1 Exposure associated with higher odds of outcome
  • Odds ratio<1 Exposure associated with lower odds of outcome

Reports from teachers suggested that, compared to their peers, ambidextrous children were around twice as likely as right-handed children to have weaker overall school performance (odds ratio 2. 16). After adjusting for potential confounders, there were no significant differences between the groups in behavioral measures at age eight.

At age 16, ambidextrous children were around twice as likely to report that they had poor performance in Finnish language at school compared to right-handed pupils (odds ratio 2.16). There was no significant difference in their report of maths performance.

There was no significant difference in the proportion of ambidextrous and right-handed children receiving high scores on the hyperactive-impulsive behavior scale at age 16. However, ambidextrous children were more likely than right-handed children to receive high scores on the inattention and combined inattention/hyperactivity scale (inattention subscale: odds ratio 2.96; combined subscale: odds ratio 2.67).

Conclusion

This research, the Northern Finland Birth Cohort 1986 40 has intriguing findings, but there are a number of limitations to consider:

  • The small number of ambidextrous children studied (87) means that the results are more likely to be affected by chance, thus reducing their reliability.
    Although the study took into account some factors that could affect the results (gender, birth weight and gestational age), there are likely to be other confounding factors that could have affected the results.
  • It was not clear whether the methods used to assess handedness, language problems and school achievement had been tested and shown to be valid ways of measuring these characteristics. For example, the children’s hand dominance was reported by their parents at age eight, and the presence of individual language problems was only appraised as either ‘yes’, ‘no’ or ‘cannot say’.
  • At each age, there was only one source of information about certain aspects of the children’s behaviour and performance (either parents, teachers or the children themselves). Some of the measures used were relatively subjective (for example, problems with language), and their reliability could have been improved by asking more than one source (e.g. the parents and teachers).
  • The study carried out a number of statistical tests, which can increase the likelihood that significant differences will be found by chance, and not because a true difference exists.
  • Some of the children were scored in the range of “probable psychiatric disturbance”, based on teacher scores of their behaviour. However, this does not necessarily mean that these children would be diagnosed with psychiatric problems if they were assessed by mental health professionals.

The researchers do not think that ambidexterity directly causes the language or behavioral problems seen. Instead, they think that differences in the brain that affect hand dominance could also affect both these traits. At this stage, due to the limitations of this study, its results should be seen as very preliminary, and will require confirmation by other studies. These results should not concern parents who have ambidextrous children.

References

  1. Cherbuin N, Sachdev PS, Anstey KJ. Mixed handedness is associated with greater age-related decline in volumes of the hippocampus and amygdala: the PATH through life study. Brain Behav. 2011;1(2):125–134. doi:10.1002/brb3.24 https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3236539/
  2. Siengthai B, Kritz-Silverstein D, Barrett-Connor E. Handedness and cognitive function in older men and women: a comparison of methods. J Nutr Health Aging. 2008;12(9):641–647. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2645079/
  3. Cherbuin N, Sachdev PS, Anstey KJ. Mixed handedness is associated with greater age-related decline in volumes of the hippocampus and amygdala: the PATH through life study. Brain Behav. 2011;1(2):125–134. doi:10.1002/brb3.24 https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3236539
  4. Handedness and cerebral dominance: the right shift theory. Annett M. J Neuropsychiatry Clin Neurosci. 1998 Fall; 10(4):459-69.
  5. McManus IC. Cambridge, U.K.: Cambridge Univ. Press; 1985. Handedness, language, and aphasia: a genetic model.
  6. Genetic influences on handedness: data from 25,732 Australian and Dutch twin families. Medland SE, Duffy DL, Wright MJ, Geffen GM, Hay DA, Levy F, van-Beijsterveldt CE, Willemsen G, Townsend GC, White V, Hewitt AW, Mackey DA, Bailey JM, Slutske WS, Nyholt DR, Treloar SA, Martin NG, Boomsma DI. Neuropsychologia. 2009 Jan; 47(2):330-7.
  7. Origins of handedness: a nationwide study of 30,161 adults. Vuoksimaa E, Koskenvuo M, Rose RJ, Kaprio J. Neuropsychologia. 2009 Apr; 47(5):1294-301.
  8. Left-handedness: a marker for decreased survival fitness. Coren S, Halpern DF. Psychol Bull. 1991 Jan; 109(1):90-106.
  9. Cerebral lateralization. Biological mechanisms, associations, and pathology: I. A hypothesis and a program for research. Geschwind N, Galaburda AM. Arch Neurol. 1985 May; 42(5):428-59.
  10. Digit ratio (2D:4D) and hand preference for writing in the BBC Internet Study. Manning JT, Peters M. Laterality. 2009 Sep; 14(5):528-40.
  11. Hemispheric interactions are different in left-handed individuals. Cherbuin N, Brinkman C. Neuropsychology. 2006 Nov; 20(6):700-7.
  12. The distribution of handedness in chimpanzees: estimating right shift in Hopkins’ sample. Annett M. Laterality. 2006 Mar; 11(2):101-9.
  13. The relation between lateralisation, early start of training, and amount of practice in musicians: a contribution to the problem of handedness classification. Kopiez R, Galley N, Lehmann AC. Laterality. 2010 Jul; 15(4):385-414.
  14. The advantage of being left-handed in interactive sports. Hagemann N. Atten Percept Psychophys. 2009 Oct; 71(7):1641-8.
  15. Left-handers have a lower prevalence of arthritis and ulcer. McManus IC, Wysocki CJ. Laterality. 2005 Mar; 10(2):97-102.
  16. The relationship between handedness and risk of multiple sclerosis. Gardener H, Munger K, Chitnis T, Spiegelman D, Ascherio A. Mult Scler. 2009 May; 15(5):587-92.
  17. Handedness, insulin sensitivity and pancreatic B-cell function in Type 2 diabetes. Hermans MP, Ahn SA, Selvais PL, Rousseau MF. Diabet Med. 2009 Dec; 26(12):1289-92.
  18. Handedness, alexithymia, and focus laterality as risk factors for psychiatric comorbidity in patients with epilepsy. Kalinin VV, Zemlyanaya AA, Krylov OE, Zheleznova EV. Epilepsy Behav. 2010 Mar; 17(3):389-94.
  19. Biosocial correlates of cognitive abilities. McManus IC, Mascie-Taylor CG. J Biosoc Sci. 1983 Jul; 15(3):289-306.
  20. Is left-handedness associated with a more pronounced age-related cognitive decline? Van der Elst W, Van Boxtel MP, Van Breukelen GJ, Jolles J. Laterality. 2008 May; 13(3):234-54.
  21. Handedness and cognitive function in older men and women: a comparison of methods. Siengthai B, Kritz-Silverstein D, Barrett-Connor E. J Nutr Health Aging. 2008 Nov; 12(9):641-7.
  22. The influence of handedness on the clinical presentation and neuropsychology of Alzheimer disease. Doody RS, Vacca JL, Massman PJ, Liao TY. Arch Neurol. 1999 Sep; 56(9):1133-7.
  23. Left-handedness in early and late onset dementia. Seltzer B, Burres MJ, Sherwin I. Neurology. 1984 Mar; 34(3):367-9.
  24. Reduced incidence of left-handedness in clinically diagnosed dementia of the Alzheimer type. de Leon MJ, la Regina ME, Ferris SH, Gentes CI, Miller JD. Neurobiol Aging. 1986 May-Jun; 7(3):161-4.
  25. The evolution and genetics of cerebral asymmetry. Corballis MC. Philos Trans R Soc Lond B Biol Sci. 2009 Apr 12; 364(1519):867-79.
  26. Mixed-handedness is linked to mental health problems in children and adolescents. Rodriguez A, Kaakinen M, Moilanen I, Taanila A, McGough JJ, Loo S, Järvelin MR. Pediatrics. 2010 Feb; 125(2):e340-8.
  27. Hand-preference and population schizotypy: a meta-analysis. Somers M, Sommer IE, Boks MP, Kahn RS. Schizophr Res. 2009 Mar; 108(1-3):25-32.
  28. Handedness and health: an examination of the association between different handedness classifications and health disorders. Bryden PJ, Bruyn J, Fletcher P. Laterality. 2005 Sep; 10(5):429-40.
  29. Hand preference for writing and associations with selected demographic and behavioral variables in 255,100 subjects: the BBC internet study. Peters M, Reimers S, Manning JT. Brain Cogn. 2006 Nov; 62(2):177-89.
  30. de Leon MJ, la Regina ME, Ferris SH, Gentes CI, Miller JD. Reduced incidence of left-handedness in clinically diagnosed dementia of the Alzheimer type. Neurobiol. Aging. 1986;7:161–164.
  31. When more is less: associations between corpus callosum size and handedness lateralization. Luders E, Cherbuin N, Thompson PM, Gutman B, Anstey KJ, Sachdev P, Toga AW. Neuroimage. 2010 Aug 1; 52(1):43-9.
  32. A single optimum degree of hemispheric specialisation in two tasks, in two UK national birth cohorts. Leask SJ, Crow TJ. Brain Cogn. 2006 Dec; 62(3):221-7.
  33. Handedness in the human fetus. Hepper PG, Shahidullah S, White R. Neuropsychologia. 1991; 29(11):1107-11.
  34. Prenatal thumb sucking is related to postnatal handedness. Hepper PG, Wells DL, Lynch C. Neuropsychologia. 2005; 43(3):313-5.
  35. Heritability of lobar brain volumes in twins supports genetic models of cerebral laterality and handedness. Geschwind DH, Miller BL, DeCarli C, Carmelli D. Proc Natl Acad Sci U S A. 2002 Mar 5; 99(5):3176-81.
  36. Prevalence and handedness correlates of traumatic injuries to the permanent incisors in 13-17-year-old adolescents in Erzurum, Turkey. Canakci V, Akgül HM, Akgül N, Canakci CF. Dent Traumatol. 2003 Oct; 19(5):248-54.
  37. Left-handedness as a risk factor for fractures. Luetters CM, Kelsey JL, Keegan TH, Quesenberry CP, Sidney S. Osteoporos Int. 2003 Nov; 14(11):918-22.
  38. Origins and implications of handedness and relative birth weight for IQ in monozygotic twin pairs. Segal NL. Neuropsychologia. 1989; 27(4):549-61.
  39. Fetal origins of child non-right-handedness and mental health. Rodriguez A, Waldenström U. J Child Psychol Psychiatry. 2008 Sep; 49(9):967-76.
  40. Mixed-Handedness Is Linked to Mental Health Problems in Children and Adolescents. Alina Rodriguez, Marika Kaakinen, Irma Moilanen, Anja Taanila, James J. McGough, Sandra Loo, Marjo-Riitta Järvelin. Pediatrics Feb 2010, 125 (2) e340-e348; DOI: 10.1542/peds.2009-1165
  41. Schizotypy is increased in mixed-handers, especially right-handed writers who use the left hand for primary actions. Annett M, Moran P. Schizophr Res. 2006 Jan 31; 81(2-3):239-46.
Top

  • Academy
    • News
    • University history
    • Official symbol
    • Hall of Honor
      • Leading scientists in the history of the university
      • nine0003 Champions of the Olympic Games
      • Alumni who have achieved success in various sports
      • Professional Alumni
      • Top ranked students
      • nine0003 Honored Workers of the Academy
    • University Declaration
    • Events in the life of the university
    • Self examination
    • Development outlook
    • Museum
      • First rector and founder of the academy
      • Olympic pages
      • Behind the glass of a museum showcase
      • History in faces
      • Shares in the museum
    • Sports panorama newspaper

      Sport panorama newspaper editorial office

      • Issues of 2022
      • 2021 editions
      • nine0003 2020 editions
      • 2019 editions
      • 2018 editions
      • Formerly
  • Divisions
    • Rectorate
      • Rector
      • Vice-Rector for Academic Affairs
      • Vice-Rector for Research
      • Vice-rector for administrative and economic work
      • nine0003 Vice-Rector for Youth Policy
    • Educational and Methodological Department

      Educational and Methodological Department

      • History
      • Head of Department
      • Practice and Employment Division

        Practice and Employment Division

        • Head of department
        • Contacts
        • Documentation
        • Photos and videos
      • Educational quality department

        Educational Quality Department

        • Documentation
        • Contacts
        • History
        • Composition
        • Advertisements
      • Educational and Methodological Department
        • Head of Department
        • Contacts, location
        • Documentation

          Documentation

      • nine0003 Contacts, location
      • Class schedule
      • State final certification
        • GIA schedule
    • Faculties and other educational units
      • Faculty of Physical Culture and Sports
        • Faculty Dean
        • Contacts
        • Documentation
        • History
        • Contingent Movement Orders
        • nine0005
        • Faculty of Scientific and Pedagogical Education
          • Faculty Dean
          • Contacts
          • Documentation
          • History
          • nine0003 Contingent Movement Orders
        • Faculty of distance learning
          • Dean of the faculty
          • Contacts
          • Documentation
          • nine0003 History
          • Contingent Movement Orders
          • Installation tasks for the 1st course
        • Faculty of additional education and pre-university training

          Faculty of additional education and pre-university training

          • Faculty Dean
          • Contacts
          • News
          • Documentation
          • History
          • nine0003 Professional development programs
          • Vocational retraining programs
          • Current courses and programs for employees of FGBOU VO "VGAPC"
          • International cooperation

            International cooperation

          • nine0003 Sport is the norm of life
          • List of professional development programs
          • stoimost
      • Chairs
        • Graduate departments
          • Department of Humanities and Economics

            Department of Humanities and Economics

          • Department of Pedagogy, Psychology and Communication Disciplines

            Department of Pedagogy, Psychology and Communication Disciplines

          • Department of Theory and Methods of Adaptive Physical Education
          • Department of Theory and Methods of Gymnastics, Dance Sport and Aerobics
          • Department of Theory and Methods of Combat Sports and Weightlifting
          • Department of Theory and Methods of Sports Games
          • nine0003 Department of Theory and Methods of Physical Education
          • Department of Theory and Methods of Cyclic Sports
        • General theoretical departments
          • Department of medical and biological disciplines
          • Department of theory and technology of physical culture and sports
      • Accounting and Financial Department
        • Head of Department
        • Documentation
        • Contacts
        • History
      • Department of Affairs and Legal Support

        Department of Affairs and Legal Support

        • Head of Department
        • Human resources department

          Human resources department

          • Head of department
          • nine0003 Documentation
          • Contacts
          • History
          • Vacancies
          • Information for the competition

            Competition question

          • nine0003 Conducting elections for the position of head of the department
          • Dean's election
        • Legal Department

          Legal Department

          • Senior Legal Counsel
        • nine0003 Archive

          Archive

        • Office

          Office

        • Documentation
        • Contacts
      • Information Technology Department
        • Head of Department
        • Contacts
        • Calendar of events
        • Documents
        • History of division
        • nine0003 Editorial and Publishing Department
          • Head of RIO
          • Contacts
          • History of RIO
        • Computer center
          • Head of CC
          • nine0003 History
          • Composition

            kc

          • Base
          • Contacts
        • General Information Department
          • Contacts
          • History of OOI
          • Photo
        • Library

          Library

          • General
          • Documents
          • nine0003 Composition
          • Reader Service
          • Academy departments
          • Useful information
          • Information resources
          • nine0003 Information about the internal electronic catalog
          • Virtual Exhibitions
      • Library

        Library

      • Medical unit
      • nine0003 Social and psychological service
        • Composition
        • Documentation
        • Schedule of psychologist consultations
        • Psychology for all
        • nine0003 News
      • Administrative and economic part
        • Divisions of the AHS
        • Documents
        • History
      • nine0003 Residential complex
        • Head of the ZhBK
        • Documentation
        • Contacts
        • Student Residence Council
          • Contacts
          • nine0003 Composition
          • Documentation
          • News
      • Trade union organization of employees
      • Management of scientific and innovative activities
        • Head of Department
        • Contacts
        • Documents
        • Department of Postgraduate Studies
          • Head of Department
          • Contacts
          • nine0003 Documentation
          • History
        • Department of grant and project activities
        • Research and methodological support department
        • nine0003 Interdepartmental Research Laboratory
        • Scientific and Practical Center for Adaptive Physical Education for Children with Disabilities
    • Boards and commissions

      Boards and commissions

    • nine0003 Applicant
      • Contacts of the admission committee
      • Memo to applicants who applied through EPGU
      • Admission campaign 2022
    • Educational process
    • nine0003 Research work
      • Research work
    • Educational and sports work
  • Student and postgraduate student

    Student and postgraduate student

  • Graduate
  • nine0003 Specialist
  • Advanced training

    Faculty of additional education and pre-university training

  • Accessible environment
    • Documents
    • Applicants with disabilities and disabilities
    • nine0003 Ensuring access to the buildings of the Federal State Budgetary Educational Institution of Higher Education "VGAPC" for persons with disabilities and disabilities
    • Logistics
    • Accessible education
    • Electronic educational resources for students with disabilities and disabilities
    • nine0003 Volunteering movement
    • Employment assistance
    • Advanced training for specialists in working with persons with disabilities and disabilities
  • Contacts
  • nine0003 Rector's Internet Reception

STRIZH | Issues

Biology and Chemistry

Foreign Philology

Korina Darya Igorevna

COMMUNICATIVE TACTICS OF DISSENT OF THE INTERVIEWEE IN THE SPEECH GENRE "INTERVIEW" (on the example of the German media)

Based on the material of German interviews, the main communication techniques that implement the tactics of disagreement are identified interviewee: categorical objection, non-categorical objection, demonstration of protest, interrupting the interviewer's remark, contrasting concepts in the initiating and response remarks, quotation question. Installs the language tools used when implementing the communicative tactics of disagreement. nine0007

Keywords: communication tactics, disagreement, interview, word, evaluation

Download | PDF, 1012Kb

Psychology and Pedagogy

Moytus Inna Alexandrovna

DEVELOPMENT OF VOLUNTARY ATTENTION IN CHILDREN OF THE OLDER PRESCHOOL AGE

The problem of development of voluntary attention in children of the senior preschool age is considered. Based on the analysis of psychological and pedagogical literature on this issue, the most popular definitions of this concept, the main characteristics of attention in general and voluntary attention, the views of domestic and foreign psychologists on the nature of its occurrence, as well as the role of the game in the development of voluntary attention. nine0007

Key words: preschool age, attention, attention characteristics, formation of voluntary attention, mental processes, game

Download | PDF, 994Kb

Literary criticism and linguistic Russian studies

Physical culture and technological education

Besedin Sergey Nikolaevich, Bolkunevich Denis Andreevich

FORECAST OF PROFESSIONAL ABILITIES OF STUDENTS PEDAGOGICAL UNIVERSITY

The professional abilities of students are predicted and analyzed from the point of view of their personal characteristics and types of behavior: realistic, intellectual, social, conventional, enterprising, artistic.


Learn more